In the dynamic field of chemical synthesis, intermediates play a pivotal role in creating complex molecules and valuable end products. o-Acetoacetanisidide, identified by its CAS number 92-15-9, stands out as a significant organic intermediate with diverse applications, particularly in the dye and pigment industries. Understanding its fundamental properties is crucial for R&D scientists and product formulators.

Chemically, o-Acetoacetanisidide is characterized by its molecular formula C11H13NO3 and a molecular weight of approximately 207.23 g/mol. It typically appears as an off-white to white powder or crystalline solid. Its melting point is generally reported in the range of 85-87°C, indicating it is a stable solid at room temperature. While its solubility in water is limited, it readily dissolves in common organic solvents like ethanol and acetone, facilitating its use in various reaction media.

The primary application of o-Acetoacetanisidide is as an intermediate for the manufacture of organic pigments. It serves as a critical building block, contributing to the synthesis of pigments that offer excellent lightfastness and color vibrancy. Furthermore, it functions as an important azo component in the production of certain yellow dyes, enhancing their coloristic properties and performance.

For chemical manufacturers and researchers, sourcing high-quality o-Acetoacetanisidide is essential. When considering where to buy this intermediate, it is important to partner with reputable suppliers who can guarantee purity and consistency. Buyers often seek detailed product specifications, including CAS number, molecular formula, and purity levels, to ensure suitability for their specific synthetic processes. Exploring options for bulk purchases or sample orders from established chemical manufacturers in regions like China can provide cost-effective solutions.

The versatility of o-Acetoacetanisidide extends to its utility in broader organic synthesis, making it a valuable compound for research and development initiatives aimed at creating novel chemical entities. By understanding its chemical profile and industrial applications, professionals can effectively leverage this intermediate to drive innovation in their respective fields. Inquire about purchase options and technical data today.